COVID-19 in children in Espirito Santo State – Brazil

Maciel, Ethel Leonor Noia; Jabor, Pablo Medeiros; Goncalves Jr, Etereldes; Soares, Karllian Kerlen Simonelli; Prado, Thiago Nascimento do; Zandonade, Eliana

doi:10.1590/1806-9304202200020012

Abstract

Objectives:

to characterize school-aged children, adolescents, and young people’s profile and their associations with positive COVID-19 test results.

Methods:

an observational and descriptive study of secondary data from the COVID-19 Panel in Espírito Santo State in February to August 2020. People suspected of COVID-19, in the 0–19-years old age group, were included in order to assess clinical data and demographic and epidemiological factors associated with the disease.

Results:

in the study period, 27,351 COVID-19 notification were registered in children, adolescents, and young people. The highest COVID-19 test confirmation was found in Caucasians and were 5-14 years age group. It was also observed that headache was the symptom with the highest test confirmation. Infection in people with disabilities was more frequent in the confirmed cases. The confirmation of cases occurred in approximately 80% of the notified registrations and 0.3% of the confirmed cases, died.

Conclusion:

children with confirmed diagnosis for COVID-19 have lower mortality rates, even though many were asymptomatic. To control the chain of transmission and reduce morbidity and mortality rates, it was necessaryto conduct more comprehensive research and promote extensive testing in the population.

Key words:
Coronavirus infections; Transmitted diseases; Child’s health; Epidemiology; Adolescent’s health

Resumo

Objetivos:

Caracterizar o perfil de crianças, adolescentes e jovens em idade escolar e associações com o resultado positivo do teste COVID-19.

Métodos:

estudo observacional e descritivo de dados secundários do Painel COVID-19, no Estado do Espírito Santo no período de fevereiro a agosto de 2020. Foram incluídas pessoas suspeitas de COVID-19, em faixas etárias de 0 a 19 anos, a fim de avaliar os dados clínicos e fatores demográficos e epidemiológicos associados ao agravo.

Resultados:

no período de estudo, foram considerados 27.351 registros de notificação da COVID-19 em crianças, adolescentes e jovens. As maiores chances de confirmação dos casos foram encontradas na faixa etária de 5 a 14 anos, em pessoas de raça/cor branca para COVID-19. Observouse que cefaleia foi o sintoma que apresentou maior chance de confirmação de teste. Já a infecção em pessoas deficientes foram mais frequentes nos casos confirmados. A confirmação dos casos se deu em aproximadamente 80% dos registros de notificação e do total confirmados 0,3% vieram a óbito.

Conclusão:

as crianças com diagnóstico confirmado para COVID-19 apresentam menor taxa de mortalidade, mesmo que muitas fossem assintomáticas. Para o controle da cadeia de transmissão e redução nas taxas de morbimortalidade, torna-se necessária a realização de pesquisas mais abrangentes e promoção da testagem ampla na população.

Palavras-chave:
Infecções por coronavirus; Doenças transmissíveis; Saúde da criança; Epidemiologia; Saúde do adolescente

Introduction

COVID-19 is a systemic infectious disease caused by SARS-CoV-2 virus.¹1 Safadi MA. The intriguing features of COVID-19 in children and its impact on the pandemic. J Pediatr (Rio J). 2020 May/Jun; 96 (3): 265-8. This disease emerged in China and has become a Pandemic, decreed by the World Health Organization (WHO) on March 11, 2020. It is a Public Health problem due to its rapid transmission, high rates of hospitalizations and mortality.

Coronavirus infection rates are high, with approximately 66,540,034 cases of COVID-19 infection and a total of 1,528,868 deaths worldwide as of early December 2020. According to the epidemiological bulletin on COVID-19, published on December 11, 2020, Brazil was considered the third country with the highest number of COVID-19 cases, approximately 30,943 cases for every 1 million inhabitants, and the second country with the highest death rates in the world, with 841 deaths for every 1 million inhabitants and the percentage of recovered person was 13.5%.²2 Ministry of Health (BR). Secretaria de Vigilância em Saúde. Boletim Epidemiológico Especial. Doença pelo coronavírus - COVID-19. Semana Epidemiológica 49. Brasília (DF): Ministry of Health; 2020.

In general, the main symptoms related to COVID-19 range from nonspecific symptoms such as adynamia, myalgias, and fever, in about 80% of the infected patients, to pulmonary phase, with proliferation of the virus to the lungs, causing pneumonia with vasodilation, increasing permeability of the endothelium, leukocyte recruitment, and lung injury with hypoxia. In the inflammatory phase, also called cytokine storm, interleukin-6 (IL-6) is the protagonist, increasing ferritin, C-reactive protein, and interleukin levels, affecting other organs, with cardiac and hepatic impairment.³3 Sousa DS, Brota JB, Araujo RMS, Costa ACSM. Respiratory functional profile of children with COVID-19 during the hospitalization phase. Res Soc Dev. 2021; 10 (10): e573101018946.,⁴4 Zare-Zardini H, Soltaninejad H, Ferdosian F, Hamidieh AA, Memarpoor-Yazdi M. Coronavirus disease 2019 (COVID-19) in children: prevalence, diagnosis, clinical symptoms, and treatment. Int J Gen Med. 2020; 13: 477-82.,⁵5 Cavalcante ANM, Tavares LVS, Bastos MLA, Almeida RLF. Perfil clínico-epidemiológico de crianças e adolescentes com COVID-19 no Ceará. Rev Bras Saude Mater Infant. 2021; 21 (Suppl 2): S437-S43.

All these manifestations have affected a greater proportion of adults when compared to children, especially the elderly and adults with comorbidities, the justification is still unknown. Most children are asymptomatic, and less than 5% present severe forms of the disease.¹1 Safadi MA. The intriguing features of COVID-19 in children and its impact on the pandemic. J Pediatr (Rio J). 2020 May/Jun; 96 (3): 265-8.

Review studies have shown that COVID-19 infection disproportionately affects children when compared to adults, but the scarcity of data on COVID-19 in children leads to imprecise information of these details. For such a situation, epidemiological studies are needed to clarify the uncertainties related to the clinical-epidemiological aspects of COVID-19 in children, providing more information about the associated complications and the severity of the disease in children in the long term.³3 Sousa DS, Brota JB, Araujo RMS, Costa ACSM. Respiratory functional profile of children with COVID-19 during the hospitalization phase. Res Soc Dev. 2021; 10 (10): e573101018946.,⁴4 Zare-Zardini H, Soltaninejad H, Ferdosian F, Hamidieh AA, Memarpoor-Yazdi M. Coronavirus disease 2019 (COVID-19) in children: prevalence, diagnosis, clinical symptoms, and treatment. Int J Gen Med. 2020; 13: 477-82.,⁵5 Cavalcante ANM, Tavares LVS, Bastos MLA, Almeida RLF. Perfil clínico-epidemiológico de crianças e adolescentes com COVID-19 no Ceará. Rev Bras Saude Mater Infant. 2021; 21 (Suppl 2): S437-S43.,⁶6 Zhou MY, Xie X, Peng YG, Wu MJ, Deng XZ, Wu Y, et al. From SARS to COVID-19: what we have learned about children infected with COVID-19. Int J Infect Dis. 2020 Jul; 96: 710-4.,⁷7 Ho CLT, Oligbu P, Ojubolamo O, Pervaiz M, Oligbu G. Clinical characteristics of children with COVID-19. AIMS Public Health. 2020; 7 (2): 258-73.

Thus, this study aimed to trace school-aged children, adolescents, and young people’ profile and their associations with positive COVID-19 test results.

Methods

A comparative study between confirmed symptomatic cases and discarded cases for the COVID-19 diagnosis was carried out in the COVID Panel database, available on: https://coronavirus.es.gov.br/painel-covid-19-es, from the Secretaria de Estado da Saúde do Espírito Santo - SESA (Secretary of Health of Espírito Santo State).

The overall data from suspected COVID-19 individuals in the panel, aged 0-19 years old were evaluated, totaling 27,351 registrations in February 17 to August 20, 2020. Of these, the study population comprised individuals with a confirmed or discarded COVID-19 diagnosis, totaling 15,289 individuals.

The analyzed variables were grouped according to classification (confirmed and discarded), evolution (cure or death by COVID-19) and confirmation criteria (clinical, clinical-epidemiological and laboratorial ); epidemiological variables were also analyzed, such as: city , age group, sex (male, female), race/color (Asian color skin, Caucasian , indigenous, mixed color skin , black, and unknown), schooling (illiterate, incomplete elementary school (1-4^th grade), complete elementary school (4^th grade), incomplete elementary school (5-8^th grade), complete elementary school, incomplete high school, complete high school, incomplete higher education, complete higher education, not applicable, and unknown); and the symptom variables (with yes or no answers), such as: fever, difficulty of breathing, coughing, runny nose, sore throat, diarrhea, and headache ; in addition to the comorbidities variables (with yes or no answers): lung, cardiovascular, renal, diabetes, obesity comorbidities; among other variables, such as: hospitalization, trips (if he or she has made any trips in Brazil or internationally), and some type of disability (as defined in the law 13146/2015, which considers any person who has a long-term physical, mental, intellectual, or sensory impairment that may hinder effective participation in society on an equal basis with others).

The overall analyzed variables were correlated with the results of the tests to detect COVID-19 (confirmed versus discarded) which were real-time polymerase chain reaction (PCR) tests, immunological methods or antigen research.

As a result of the analyses, it was possible to elaborate frequency tables, in addition to the measurement of the association between the variables through the gross and adjusted odds ratio (OR), with the respective 95% confidence intervals (CI) (the adjusted OR was obtained from the Logistic Regression). All analyses were performed by the IBM SPSS Statistics for Windows - SPSS software, version 25.

This study was reviewed by the Research Ethics Committee at the Centro de Ciências da Saúde da Universidade Federal do Espírito Santo (CEP/CCS/UFES) and approved under the opinion number 3,908,434 on May 20, 2020.

Results

A total of 27,351 registrations on children, adolescents, and young people aged 0-19 years old in Espírito Santo State were considered. We found 7,153 (26.2%) in the 0-4 age group, 4,298 (15.7%) in the 5-9 age group, 4,697 (17.2%) in the 10-14 age group, and 11,203 (41.0%) in the 15-19 age group.

Figure 1 shows the percentages for the age range variable, classification (in the database there were the confirmed, discarded, and suspected categories), as well as the evolution variable (cured, died, and unknown). Of the initial population of suspects, 1,212 (16.9%) were confirmed in the 0-4 age group, 879 (20.5%) in the 5-9 age group, 1,219 (26.0%) in the 10-14 age group, and 2,789 (24.9%) in the 15-19 age group.

Figure 1
Flowchart of the COVID-19 panel registration for age groups, according to classification and evolution in Espírito Santo, in February to August, 2020.

In this study, registration of suspected cases of COVID-19 were excluded when no confirmation test was performed, and a total of 15,289 registrations were analyzed, 6,099 (39.9%) cases were confirmed, and 9,190 (60.1%) cases were discarded for COVID-19.

Table 1 shows the sociodemographic profile of the analyzed cases in general, and the comparison of the test results (confirmed versus discarded cases); it was observed that children aged 5-9 years old (OR=1.39; CI95%=1.25- 1.54) and 10-14 years (OR=1.32. CI95%=1.18-1.48) had a higher chance of case confirmation when compared to children aged 0-4 years old; as for race-color, it was observed that children declared as yellow race/color (OR=0.79; CI95%=0.66-0. 94) and indigenous (OR=0.71; CI95%=0.57-0.88) have a lower chance of having a confirmed test when compared to Caucasian children; children living in rural areas (OR=1.18; CI95%=1.09- 1.28) have a higher chance of having confirmed tests and, finally, children with disabilities have 1.32 (OR=1.32; CI95%=1.10-1.59) times more chances of confirmed test.

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Table 1
Analysis of the sociodemographic variables profile of the total sample, according to COVID-19 test result (confirmed versus discarded) in Espírito

Figure 2 shows the symptoms in the confirmed and discarded groups. Evidence of associations was tested by the chi-square test. A difference in symptoms was found. More symptoms were observed in the discarded group, such as coughing, runny nose, sore throat, difficulty of breathing, and diarrhea. Only “headache” was found to be a more frequent symptom in the confirmed group. For “fever” there was no evidence of differences between the two groups.

Figure 2
Presentation of the percentage of COVID-19 symptoms in the discarded and confirmed groups, with the respective odds ratio (OR) and 95% confidence interval, in Espirito Santo state in Brazil in February to August, 2020.

* p<0.05;** p=0.001.

Table 2 shows the prevalence calculated by age groups with arespective 95% confidence intervals for the Greater Vitória Area and the countryside of Espírito Santo State. Higher prevalence was observed in all four age groups for the countryside population.

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Table 2
Percentage of positive results for COVID-19 by age group for Greater Vitória area and Countryside in Espirito Santo State in Brazil in February to August, 2020.

Diagnosis was confirmed by laboratorial tests in 80.6% of the confirmed cases and in 85.7% of the discarded cases. The remaining cases were confirmed by clinical and clinical-epidemiological criteria. Of the total confirmed cases, 17 (0.3%) died of COVID-19, while in the discarded cases group there were 40 deaths of other causes (0.4% of the sample).

Table 3 shows the patients’ profile who died of COVID-19 in the confirmed group.

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Table 3
Clinical epidemiological profile of deaths that had a confirmed diagnosis for COVID-19 in Espirito Santo, Brazil, in February to August, 2020.

Discussion

Despite its epidemiological importance, most cases were asymptomatic, which generated a low number of diagnosed children, making it difficult to understand the behavior of the disease, its clinical manifestations, and other associations that have not yet been clarified.³3 Sousa DS, Brota JB, Araujo RMS, Costa ACSM. Respiratory functional profile of children with COVID-19 during the hospitalization phase. Res Soc Dev. 2021; 10 (10): e573101018946.,⁵5 Cavalcante ANM, Tavares LVS, Bastos MLA, Almeida RLF. Perfil clínico-epidemiológico de crianças e adolescentes com COVID-19 no Ceará. Rev Bras Saude Mater Infant. 2021; 21 (Suppl 2): S437-S43.,⁸8 Mehta NS, Mytton OT, Mullins EWS, Fowler TA, Falconer CL, Murphy OB, et al. SARS-CoV-2 (COVID-19): what do we know about children? A systematic review. Clin Infect Dis. 2020 Dec; 71 (9): 2469-79.,⁹9 Albuquerque LJV, Feitoza AC, Gonçalves ALN, Falcão ACAM, Rocha MAW, Lyra PT, et al. Perfil clínicoepidemiológico de crianças e adolescentes internadas com suspeita de Covid-19 com sintomas respiratórios em hospital de referência em Recife/PE. Braz J Infect Dis. 2021; 25 (Suppl 1): 101078. However, it was possible to conduct an analysis on the sociodemographic profile and factors associated with a positive COVID-19 test result in Espírito Santo State, Southeast of Brazil. The evaluation showed a higher chance of test confirmation among children aged 5 to 14 years old living in the countryside of the state and have some type of disability. In turn, children declared /Asian color skin and indigenous had a lower chance of test confirmation. In addition, there was a higher chance of test confirmation in people with headaches.

The limitations found in this study refer to the use of secondary data and the fact that not all asymptomatic patients may have been identified due to the testing policy in Brazil which, given the possibility of underreporting, may have underestimated the real epidemiological situation of COVID-19 among the youngest. Despite these limitations, the size of the study population was large, and, to our knowledge, this is the first large observational study on the epidemiological childhood characteristics of COVID-19 in Espírito Santo State in Brazil.²2 Ministry of Health (BR). Secretaria de Vigilância em Saúde. Boletim Epidemiológico Especial. Doença pelo coronavírus - COVID-19. Semana Epidemiológica 49. Brasília (DF): Ministry of Health; 2020.,⁷7 Ho CLT, Oligbu P, Ojubolamo O, Pervaiz M, Oligbu G. Clinical characteristics of children with COVID-19. AIMS Public Health. 2020; 7 (2): 258-73.

This study showed that children of all ages were affected by COVID-19, which consists with other studies.⁶6 Zhou MY, Xie X, Peng YG, Wu MJ, Deng XZ, Wu Y, et al. From SARS to COVID-19: what we have learned about children infected with COVID-19. Int J Infect Dis. 2020 Jul; 96: 710-4.,⁸8 Mehta NS, Mytton OT, Mullins EWS, Fowler TA, Falconer CL, Murphy OB, et al. SARS-CoV-2 (COVID-19): what do we know about children? A systematic review. Clin Infect Dis. 2020 Dec; 71 (9): 2469-79. However, a higher proportion of confirmed tests was observed among the 5-14-years old age group.

A study from South Korea analyzed data with 59,073 contacts of 5,706 patients with COVID-19. Of 10,592 household contacts, 11.8% had COVID-19, and the household transmission of SARS-CoV-2 was higher in 10-19-year-old individuals (18.6% [CI95%=14.0-24.0]) than the 0-9-year-old children (5.3% [CI95%=1.3-13.7]) at the time when schools were closed.⁸8 Mehta NS, Mytton OT, Mullins EWS, Fowler TA, Falconer CL, Murphy OB, et al. SARS-CoV-2 (COVID-19): what do we know about children? A systematic review. Clin Infect Dis. 2020 Dec; 71 (9): 2469-79.,¹⁰10 Park YJ, Choe YJ, Park O, Park SY, Kim Y, Kim J, et al. Contact tracing during coronavirus disease outbreak, South Korea, 2020. Emerg Infect Dis. 2020 Oct; 26 (10): 2465-8.

This result from South Korea underscores the important role of household transmission of SARS-CoV-2 by children, especially those at school age (aged 7-17 years old). Furthermore, added to our results, in Espírito Santo State in Brazil, we reinforced the importance of the public health measures and non-pharmaceutical intervention strategies against COVID-19, including counseling on social distancing and closing schools.

A study that analyzed contact survey data for Wuhan and Shanghai before and during the outbreak, and with contact tracing information from Hunan province, built a transmission model to study the impact of social distancing and school closure on the transmission; showing that school closure could reduce peak incidence by 40% to 60%, and that social distancing alone was able to control COVID-19.¹¹11 Zhang J, Litvinova M, Liang Y, Wang Y, Wang W, Zhao S, et al. Changes in contact patterns shape the dynamics of the COVID-19 outbreak in China. Science. 2020 Apr; 368 (6498): 1481-6.

It is plausible that as a result of social isolation and school closure, the incidence and mortality of COVID-19 were minimized. However, it is possible that the findings are associated with other non-pharmacological interventions that were not listed.¹²12 Auger KA, Shah SS, Richardson T, Hartley D, Hall M, et al. Association between statewide school closure and COVID-19, incidence and mortality in the US. JAMA. 2020 Sep; 324 (9): 859-70. As of school closure, there was increased risk in child development and social complications related to social phobia and psychosocial disorders.¹²12 Auger KA, Shah SS, Richardson T, Hartley D, Hall M, et al. Association between statewide school closure and COVID-19, incidence and mortality in the US. JAMA. 2020 Sep; 324 (9): 859-70.,¹³13 Morrissette M. School closures and social anxiety during the COVID-19 pandemic. J Am Acad Child Adolesc Psychiatry. 2021 Jan; 60 (1): 6-7.,¹⁴14 Lima EJF, Costa-Oliveira MBM. Volta às aulas no contexto de pandemia: um desafio e várias vertentes. Resid Pediatr. 2021; 11 (1): 1-5.

A systematic review and meta-analysis study of 90 scientific articles showed that children being infected in school settings was lower compared to adults, making the school environment unbiased in the transmission of the virus.¹⁵15 Irfan O, Li J, Tang K, Wang Z, Bhutta ZA. Risk of infection and transmission of SARS-CoV-2 among children and adolescents in households, communities and educational settings: a systematic review and metaanalysis. J Glob Health. 2021 Jul; 11: 05013.

Children who were Caucasian and aged 5-14 years old had a higher chance of testing positive for COVID-19 than children under 4 years of age, and a lower chance of test confirmation in children declaring Asian color skin and indigenous. On the other hand, mortality among blacks/mixed color skin was higher than among Caucasians. This disparity in racial fatality due to COVID-19 has been reported in Brazilian and international studies among adults.⁴4 Zare-Zardini H, Soltaninejad H, Ferdosian F, Hamidieh AA, Memarpoor-Yazdi M. Coronavirus disease 2019 (COVID-19) in children: prevalence, diagnosis, clinical symptoms, and treatment. Int J Gen Med. 2020; 13: 477-82.,¹⁶16 She J, Liu L, Liu L. COVID-19 epidemic: disease characteristics in children. J Med Virol. 2020 Jul; 92 (7): 747-54.,¹⁷17 Sankar J, Dhochak N, Kabra SK, Lodha R. COVID-19 in children: clinical approach and management. Indian J Pediatr. 2020 Jun; 87 (6): 433-42.

A prospective cohort study conducted in the United Kingdom associated black race/color significantly with admission to intensive care; likewise, a U.S. crossover study on 12,306 black race/color children were associated with a hospitalization increase for COVID-19.¹⁸18 Parcha V, Booker KS, Kalra R, Kuranz S, Berra L, Arora G, et al. A retrospective cohort study of 12,306 pediatric COVID-19 patients in the United States. Sci Rep. 2021 May; 11: 10231.,¹⁹19 Swann OV, Holden KA, Turtle L, Pollock L, Fairfield CJ, Drake TM. Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. BMJ. 2020 Aug; 370: m3249. These studies corroborate the information found in the study about the disparity of complications in blacks compared to Caucasians.¹⁸18 Parcha V, Booker KS, Kalra R, Kuranz S, Berra L, Arora G, et al. A retrospective cohort study of 12,306 pediatric COVID-19 patients in the United States. Sci Rep. 2021 May; 11: 10231.,¹⁹19 Swann OV, Holden KA, Turtle L, Pollock L, Fairfield CJ, Drake TM. Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. BMJ. 2020 Aug; 370: m3249.

Although the reasons for most black children dying of COVID-19, may be related to living in families whose adults are essential workers and are exposed to the virus at work, as well as, it can potentially be attributed to social and health inequities as a function of exposure to the social determinants of health.⁵5 Cavalcante ANM, Tavares LVS, Bastos MLA, Almeida RLF. Perfil clínico-epidemiológico de crianças e adolescentes com COVID-19 no Ceará. Rev Bras Saude Mater Infant. 2021; 21 (Suppl 2): S437-S43.,²⁰20 Holmes Junior L, Enwere M, Williams J, Ogundele B, Chavan P, Piccoli T, et al. Black-white risk differentials in COVID-19 (SARS-COV2) transmission, mortality and case fatality in the United States: translational epidemiologic perspective and challenges. Int J Environ Res Public Health. 2020 Jun; 17 (12): 4322.,²¹21 Araújo EM, Caldwell KL, Santos MPA, Souza IMP, Rosa PLFS, Santos ABS, et al. Covid-19 - morbimortalidade pela COVID-19 segundo raça/cor/etnia: a experiência do Brasil e dos Estados Unidos. Saúde Debate. 2020; 44 (spe 4): 191-205.,²²22 Toubiana J, Poirault C, Corsia A, Bajolle F, Fourgeaud J, Angoulvant F, et al. Kawasaki-like multisystem inflammatory syndrome in children during the covid-19 pandemic in Paris, France: prospective observational study. BMJ. 2020; 369: m2094.

Similarly, people with disabilities had worse levels of response to the treatment against COVID-19. Overall, people with disabilities belong to a population with a higher prevalence of multiple chronic conditions, lower economic status, and healthcare disparities.²³23 Turk MA, McDermott S. The COVID-19 pandemic and people with disability. Disabil Health J. 2020 Jul; 13 (3): 100944.

The study showed a higher chance of test confirmation in cities in the countryside of the state when compared to the metropolitan region. This finding may be linked to a greater underreporting effect in cities with fewer resources and difficult access for testing, according to studies conducted in Brazil and India.²⁴24 Maciel JAC, Castro-Silva II, Farias MR. Análise inicial da correlação espacial entre a incidência de COVID-19 e o desenvolvimento humano nos municípios do estado do Ceará no Brasil. Rev Bras Epidemiol. 2020; 23: e200057.,²⁵25 Biswas RK, Afiaz A, Huq S. Underreporting COVID-19: the curious case of the Indian subcontinent. Epidemiol Infect. 2020; 148: e207.

Finally, the proportion of deaths of COVID-19 was 0.3% among the youngest. This proportion is similar to other studies.⁴4 Zare-Zardini H, Soltaninejad H, Ferdosian F, Hamidieh AA, Memarpoor-Yazdi M. Coronavirus disease 2019 (COVID-19) in children: prevalence, diagnosis, clinical symptoms, and treatment. Int J Gen Med. 2020; 13: 477-82.,¹⁶16 She J, Liu L, Liu L. COVID-19 epidemic: disease characteristics in children. J Med Virol. 2020 Jul; 92 (7): 747-54.,¹⁷17 Sankar J, Dhochak N, Kabra SK, Lodha R. COVID-19 in children: clinical approach and management. Indian J Pediatr. 2020 Jun; 87 (6): 433-42. Mild symptoms in children may be related to decreased immune dysregulation in children, with normal lymphocyte counts, as well as less altered C-reactive protein, D-dimer, and probably due to the association of low expression or immaturity of angiotensin-converting enzyme 2 (ACE-2) in children, making it difficult for the virus to enter the cell cytoplasm.³3 Sousa DS, Brota JB, Araujo RMS, Costa ACSM. Respiratory functional profile of children with COVID-19 during the hospitalization phase. Res Soc Dev. 2021; 10 (10): e573101018946.,²⁴24 Maciel JAC, Castro-Silva II, Farias MR. Análise inicial da correlação espacial entre a incidência de COVID-19 e o desenvolvimento humano nos municípios do estado do Ceará no Brasil. Rev Bras Epidemiol. 2020; 23: e200057.,²⁵25 Biswas RK, Afiaz A, Huq S. Underreporting COVID-19: the curious case of the Indian subcontinent. Epidemiol Infect. 2020; 148: e207.,²⁶26 Qiu H, Wu J, Hong L, Luo Y, Song Q, Chen D. Clinical and epidemiological features of 36 children with coronavirus disease 2019 (COVID-19) in Zhejiang, China: an observational cohort study. Lancet Infect Dis. 2020 Jun; 20 (6): 689-96.,²⁷27 Dhochak N, Singhal T, Kabra SK, Lodha R. Pathophysiology of COVID-19: why children fare better than adults? Indian J Pediatr. 2020 Jul; 87 (7): 537-46.

In order to ensure greater coverage of epidemiological surveillance actions, it is essential to promote massive testing of the population, including children, in order to obtain more quantitative data to base and plan actions to control this disease and promote scientific studies to expand vaccination in children.

References

¹
Safadi MA. The intriguing features of COVID-19 in children and its impact on the pandemic. J Pediatr (Rio J). 2020 May/Jun; 96 (3): 265-8.
²
Ministry of Health (BR). Secretaria de Vigilância em Saúde. Boletim Epidemiológico Especial. Doença pelo coronavírus - COVID-19. Semana Epidemiológica 49. Brasília (DF): Ministry of Health; 2020.
³
Sousa DS, Brota JB, Araujo RMS, Costa ACSM. Respiratory functional profile of children with COVID-19 during the hospitalization phase. Res Soc Dev. 2021; 10 (10): e573101018946.
⁴
Zare-Zardini H, Soltaninejad H, Ferdosian F, Hamidieh AA, Memarpoor-Yazdi M. Coronavirus disease 2019 (COVID-19) in children: prevalence, diagnosis, clinical symptoms, and treatment. Int J Gen Med. 2020; 13: 477-82.
⁵
Cavalcante ANM, Tavares LVS, Bastos MLA, Almeida RLF. Perfil clínico-epidemiológico de crianças e adolescentes com COVID-19 no Ceará. Rev Bras Saude Mater Infant. 2021; 21 (Suppl 2): S437-S43.
⁶
Zhou MY, Xie X, Peng YG, Wu MJ, Deng XZ, Wu Y, et al From SARS to COVID-19: what we have learned about children infected with COVID-19. Int J Infect Dis. 2020 Jul; 96: 710-4.
⁷
Ho CLT, Oligbu P, Ojubolamo O, Pervaiz M, Oligbu G. Clinical characteristics of children with COVID-19. AIMS Public Health. 2020; 7 (2): 258-73.
⁸
Mehta NS, Mytton OT, Mullins EWS, Fowler TA, Falconer CL, Murphy OB, et al SARS-CoV-2 (COVID-19): what do we know about children? A systematic review. Clin Infect Dis. 2020 Dec; 71 (9): 2469-79.
⁹
Albuquerque LJV, Feitoza AC, Gonçalves ALN, Falcão ACAM, Rocha MAW, Lyra PT, et al Perfil clínicoepidemiológico de crianças e adolescentes internadas com suspeita de Covid-19 com sintomas respiratórios em hospital de referência em Recife/PE. Braz J Infect Dis. 2021; 25 (Suppl 1): 101078.
¹⁰
Park YJ, Choe YJ, Park O, Park SY, Kim Y, Kim J, et al Contact tracing during coronavirus disease outbreak, South Korea, 2020. Emerg Infect Dis. 2020 Oct; 26 (10): 2465-8.
¹¹
Zhang J, Litvinova M, Liang Y, Wang Y, Wang W, Zhao S, et al Changes in contact patterns shape the dynamics of the COVID-19 outbreak in China. Science. 2020 Apr; 368 (6498): 1481-6.
¹²
Auger KA, Shah SS, Richardson T, Hartley D, Hall M, et al Association between statewide school closure and COVID-19, incidence and mortality in the US. JAMA. 2020 Sep; 324 (9): 859-70.
¹³
Morrissette M. School closures and social anxiety during the COVID-19 pandemic. J Am Acad Child Adolesc Psychiatry. 2021 Jan; 60 (1): 6-7.
¹⁴
Lima EJF, Costa-Oliveira MBM. Volta às aulas no contexto de pandemia: um desafio e várias vertentes. Resid Pediatr. 2021; 11 (1): 1-5.
¹⁵
Irfan O, Li J, Tang K, Wang Z, Bhutta ZA. Risk of infection and transmission of SARS-CoV-2 among children and adolescents in households, communities and educational settings: a systematic review and metaanalysis. J Glob Health. 2021 Jul; 11: 05013.
¹⁶
She J, Liu L, Liu L. COVID-19 epidemic: disease characteristics in children. J Med Virol. 2020 Jul; 92 (7): 747-54.
¹⁷
Sankar J, Dhochak N, Kabra SK, Lodha R. COVID-19 in children: clinical approach and management. Indian J Pediatr. 2020 Jun; 87 (6): 433-42.
¹⁸
Parcha V, Booker KS, Kalra R, Kuranz S, Berra L, Arora G, et al A retrospective cohort study of 12,306 pediatric COVID-19 patients in the United States. Sci Rep. 2021 May; 11: 10231.
¹⁹
Swann OV, Holden KA, Turtle L, Pollock L, Fairfield CJ, Drake TM. Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. BMJ. 2020 Aug; 370: m3249.
²⁰
Holmes Junior L, Enwere M, Williams J, Ogundele B, Chavan P, Piccoli T, et al Black-white risk differentials in COVID-19 (SARS-COV2) transmission, mortality and case fatality in the United States: translational epidemiologic perspective and challenges. Int J Environ Res Public Health. 2020 Jun; 17 (12): 4322.
²¹
Araújo EM, Caldwell KL, Santos MPA, Souza IMP, Rosa PLFS, Santos ABS, et al Covid-19 - morbimortalidade pela COVID-19 segundo raça/cor/etnia: a experiência do Brasil e dos Estados Unidos. Saúde Debate. 2020; 44 (spe 4): 191-205.
²²
Toubiana J, Poirault C, Corsia A, Bajolle F, Fourgeaud J, Angoulvant F, et al Kawasaki-like multisystem inflammatory syndrome in children during the covid-19 pandemic in Paris, France: prospective observational study. BMJ. 2020; 369: m2094.
²³
Turk MA, McDermott S. The COVID-19 pandemic and people with disability. Disabil Health J. 2020 Jul; 13 (3): 100944.
²⁴
Maciel JAC, Castro-Silva II, Farias MR. Análise inicial da correlação espacial entre a incidência de COVID-19 e o desenvolvimento humano nos municípios do estado do Ceará no Brasil. Rev Bras Epidemiol. 2020; 23: e200057.
²⁵
Biswas RK, Afiaz A, Huq S. Underreporting COVID-19: the curious case of the Indian subcontinent. Epidemiol Infect. 2020; 148: e207.
²⁶
Qiu H, Wu J, Hong L, Luo Y, Song Q, Chen D. Clinical and epidemiological features of 36 children with coronavirus disease 2019 (COVID-19) in Zhejiang, China: an observational cohort study. Lancet Infect Dis. 2020 Jun; 20 (6): 689-96.
²⁷
Dhochak N, Singhal T, Kabra SK, Lodha R. Pathophysiology of COVID-19: why children fare better than adults? Indian J Pediatr. 2020 Jul; 87 (7): 537-46.

Publication Dates

Publication in this collection
05 Aug 2022
Date of issue
Apr-Jun 2022

History

Received
03 Mar 2021
Reviewed
30 Nov 2021
Accepted
16 Mar 2022

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited

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[12] ¹²
Auger KA, Shah SS, Richardson T, Hartley D, Hall M, et al Association between statewide school closure and COVID-19, incidence and mortality in the US. JAMA. 2020 Sep; 324 (9): 859-70.

[13] ¹³
Morrissette M. School closures and social anxiety during the COVID-19 pandemic. J Am Acad Child Adolesc Psychiatry. 2021 Jan; 60 (1): 6-7.

[14] ¹⁴
Lima EJF, Costa-Oliveira MBM. Volta às aulas no contexto de pandemia: um desafio e várias vertentes. Resid Pediatr. 2021; 11 (1): 1-5.

[15] ¹⁵
Irfan O, Li J, Tang K, Wang Z, Bhutta ZA. Risk of infection and transmission of SARS-CoV-2 among children and adolescents in households, communities and educational settings: a systematic review and metaanalysis. J Glob Health. 2021 Jul; 11: 05013.

[16] ¹⁶
She J, Liu L, Liu L. COVID-19 epidemic: disease characteristics in children. J Med Virol. 2020 Jul; 92 (7): 747-54.

[17] ¹⁷
Sankar J, Dhochak N, Kabra SK, Lodha R. COVID-19 in children: clinical approach and management. Indian J Pediatr. 2020 Jun; 87 (6): 433-42.

[18] ¹⁸
Parcha V, Booker KS, Kalra R, Kuranz S, Berra L, Arora G, et al A retrospective cohort study of 12,306 pediatric COVID-19 patients in the United States. Sci Rep. 2021 May; 11: 10231.

[19] ¹⁹
Swann OV, Holden KA, Turtle L, Pollock L, Fairfield CJ, Drake TM. Clinical characteristics of children and young people admitted to hospital with covid-19 in United Kingdom: prospective multicentre observational cohort study. BMJ. 2020 Aug; 370: m3249.

[20] ²⁰
Holmes Junior L, Enwere M, Williams J, Ogundele B, Chavan P, Piccoli T, et al Black-white risk differentials in COVID-19 (SARS-COV2) transmission, mortality and case fatality in the United States: translational epidemiologic perspective and challenges. Int J Environ Res Public Health. 2020 Jun; 17 (12): 4322.

[21] ²¹
Araújo EM, Caldwell KL, Santos MPA, Souza IMP, Rosa PLFS, Santos ABS, et al Covid-19 - morbimortalidade pela COVID-19 segundo raça/cor/etnia: a experiência do Brasil e dos Estados Unidos. Saúde Debate. 2020; 44 (spe 4): 191-205.

[22] ²²
Toubiana J, Poirault C, Corsia A, Bajolle F, Fourgeaud J, Angoulvant F, et al Kawasaki-like multisystem inflammatory syndrome in children during the covid-19 pandemic in Paris, France: prospective observational study. BMJ. 2020; 369: m2094.

[23] ²³
Turk MA, McDermott S. The COVID-19 pandemic and people with disability. Disabil Health J. 2020 Jul; 13 (3): 100944.

[24] ²⁴
Maciel JAC, Castro-Silva II, Farias MR. Análise inicial da correlação espacial entre a incidência de COVID-19 e o desenvolvimento humano nos municípios do estado do Ceará no Brasil. Rev Bras Epidemiol. 2020; 23: e200057.

[25] ²⁵
Biswas RK, Afiaz A, Huq S. Underreporting COVID-19: the curious case of the Indian subcontinent. Epidemiol Infect. 2020; 148: e207.

[26] ²⁶
Qiu H, Wu J, Hong L, Luo Y, Song Q, Chen D. Clinical and epidemiological features of 36 children with coronavirus disease 2019 (COVID-19) in Zhejiang, China: an observational cohort study. Lancet Infect Dis. 2020 Jun; 20 (6): 689-96.

[27] ²⁷
Dhochak N, Singhal T, Kabra SK, Lodha R. Pathophysiology of COVID-19: why children fare better than adults? Indian J Pediatr. 2020 Jul; 87 (7): 537-46.

Characteristics	Total		Confirmed		Discarded		Gross OR		Adjusted OR^* *Included variables (age group, race/color, city and disabilities).
Characteristics	N	%	n	%	n	%	OR	CI95%	OR	CI95%
Sex
Female	7957	52.1	3188	40.0	4769	60.0	1.02	0.95 - 1.08
Male	7329	47.9	2909	39.7	4420	60.3	1.00
Age group (years)
0 - 4	3622	23.7	1212	33.0	2410	67.0	1.00		1.00
5 - 9	2395	15.7	879	36.7	1516	63.3	1.49	1.37 - 1.62	1.39	1.25 - 1.54
10 - 14	2761	18.1	1219	44.1	1542	55.9	1.29	1.17 - 1.42	1.32	1.18 - 1.48
15 - 19	6511	42.5	2789	42.8	3722	57.2	0.95	0.87 - 1.04	0.93	0.84 - 1.04
Race/color
Caucasian	5097	41.5	2141	42.0	2956	58.0	1.00		1.00
Asian skin color	948	7.7	439	46.3	509	53.7	0.77	0.65 - 0.92	0.79	0.66 - 0.94
Indigenous	46	0.4	18	39.2	28	60.8	0.65	0.53 - 0.80	0.71	0.57 - 0.88
Mixed color skin	5577	45.3	2114	38.0	3463	62.0	0.87	0.47 - 1.61	0.93	0.48 - 1.79
Black	630	5.1	226	35.9	404	64.1	0.92	0.77 - 1.09	0.89	0.75 - 1.07
Schooling
Illiterate	1359	14.0	449	33.0	910	67.0	1.00
Incomplete Elementary School 1^st-4^th grade	1345	13.8	502	37.3	843	62.7	1.16	0.80 - 1.68
Complete Elementary School 4^th grade	348	3.6	151	43.4	197	56.6	0.96	0.66 - 1.39
Incomplete Elementary School 5^th-8^th grade	1821	18.7	776	42.6	1045	57.4	0.75	0.49 - 1.13
Complete Elementary School	781	8.0	306	39.2	475	60.8	0.77	0.53 - 1.11
Incomplete High School	1776	18.2	779	43.8	997	56.2	0.89	0.61 - 1.30
Complete High School	1806	18.5	746	41.3	1060	58.7	0.73	0.51 - 1.06
Incomplete Higher Schooling	367	3.8	151	41.2	216	58.8	0.81	0.56 - 1.17
Complete Higher Education	132	1.4	48	36.3	84	63.7	0.82	0.54 - 1.23
City
Greater Vitória Area	6295	41.2	2312	36.7	3983	63.3	1.00
Countryside	8941	58.5	3771	42.1	5170	57.9	1.26	1.18 - 1.34	1.18	1.09 - 1.28
Other states	53	0.3	16	30.2	37	69.8	-
Comorbidities
Lung	1312	86.0	402	30.6	910	69.4	0.65	0.57 - 0.73
Cardiovascular	178	11.0	63	35.4	115	64.6	0.83	0.61 - 1.13
Renal	40	0.3	17	42.5	23	57.5	1.12	0.60 - 2.10
Diabetes	64	0.4	28	43.7	36	56.3	0.85	0.52 - 1.39
Obesity	213	1.3	81	38.0	132	62.0	0.93	0.70 -1.23
Was hospitalized
No	7507	97.1	3042	40.5	4465	59.5	1.00
Yes	223	2.9	50	22.4	173	77.6	0.42	0.31 - 0.58
Trips in Brazil
No	9542	93.8	3841	40.2	5701	59.8
Yes	626	6.2	230	36.8	396	63.2	1.16	0.98 - 1.37
International Trips
No	8279	99.6	3320	40.1	4959	59.9
Yes	33	0.4	2	6.1	31	93.9	0.10	0.02 - 0.40
Has a disability
No	13321	96.2	5425	40.7	7896	59.3
Yes	521	3.8	252	48.4	269	51.6	1.36	1.14 - 1.62	1.32	1.10 - 1.59

Population	0 - 4 years old	5 - 9 years old	10 - 14 years old	15 - 19 years old
Greater Vitoria Area	140,668	136,980	137,973	148,782
Positive	433	327	446	1,106
Prev. (%)	0.308	0.239	0.323	0.743
CI95%	0.279 - 0.337	0.213 - 0.265	0.293 - 0.354	0.699 - 0.787
Countryside of E.S.	147,081	142,033	136,922	146,835
Positive	775	550	771	1675
Prev. (%)	0.527	0.387	0.563	1,140
CI95%	0.490 - 0.564	0.355 - 0.420	0.523 - 0.603	1,090 – 1,200

Variable	N	%
Sex
Female	9	52.9
Male	8	47.1
Age group (years)
0 - 4	6	35.3
5 - 9	2	11.8
10 - 14	2	11.8
15 - 19	7	41.1
Race/Color
Asian color skin	1	6.3
Caucasian	4	25.0
Mixed color skin	10	62.5
Black	1	6.3
City
Greater Vitória Area	8	50.0
Countryside	8	50.0
Fever
Yes	9	52.9
Difficulty of breathing
Yes	12	70.6
Coughing
Yes	6	35.3
Runnynose
Yes	2	11.8
Sore throat
Yes	0	0.0
Diarrhea
Yes	1	5.9
Headache
Yes	2	11.8
Lungcomorbidity
Yes	3	17.6
Cardiocomorbidity
Yes	3	17.6
Renal comorbidity
Yes	1	5.9
Diabetes comorbidity
Yes	1	5.9
Was hospitalized
Yes	9	81.8
Has a disability
Yes	4	23.5